CN112566343B - No-load protection circuit - Google Patents

Abstract

The invention discloses a no-load protection circuit. The problem of no-load protection under the condition of not influencing the work of a power supply in the prior art is solved; the driving circuit comprises a driving chip U1 with a protection function, a voltage stabilizing module, a driving output module, a pull-up resistor, a pull-down resistor, a transformer and a triode QS43; the output end of the driving chip is connected with a driving output module, and the driving output module comprises a primary side of a transformer; the secondary side of the transformer is connected with a base electrode of a triode QS43 through a voltage stabilizing module, a collector electrode of the triode QS43 is connected with a protection trigger end of a driving chip, an emitter electrode of the triode QS43 is connected with a first end of a pull-down resistor, and a second end of the pull-down resistor is connected with the secondary side of the transformer; the first end of the pull-up resistor is connected with the base electrode of the triode QS43, and the second end of the pull-up resistor is connected with the first end of the pull-down resistor. The circuit is used as a peripheral circuit of the driving chip, has a simple circuit structure, does not influence the working condition of a power supply when triggering protection, and is suitable for driving chips of different models.

Description

No-load protection circuit

Technical Field

The invention relates to the field of protection circuits, in particular to a no-load protection circuit.

Background

When the circuit is unloaded, if the circuit is not protected, the voltage rises all the time and exceeds the withstand voltage value of components, such as an output diode, so that the circuit is damaged. With the improvement of the safety requirements of people on the power supply, the requirement that the power supply can be protected under the condition of no load is increasingly normalized, even if the lamp is an integrated lamp, the risk of no load exists, and the fact that the no-load protection function is added under the condition that the working condition of the power supply is not influenced is particularly important.

Most of the existing no-load protection circuits are coupled with a power supply circuit, and the start of no-load protection can influence the work of the power supply. For example, a publication No. CN211352541U of "an overcurrent no-load protection circuit, an emergency lamp device and a lighting system" disclosed in chinese patent literature includes a plurality of overcurrent no-load protection branches and a control circuit having a plurality of control terminals, where the overcurrent no-load protection branches include an LED operating circuit, a voltage detection module, a short-circuit detection module and a short-circuit protection module, the voltage detection module detects an operating voltage of an LED, the short-circuit detection module outputs a corresponding detection signal according to the operating voltage, the short-circuit protection module receives the detection signal and outputs a corresponding preset voltage, the control circuit outputs a control signal according to the operating voltage and the detection signal, and the LED operating circuit operates according to the preset voltage and/or the control signal. The circuit can affect the working state of the power supply when no-load protection is carried out.

Disclosure of Invention

The invention mainly solves the problem that the prior art carries out no-load protection under the condition of not influencing the work of a power supply; the no-load protection circuit is used as a peripheral circuit of a driving chip, detects the change of output voltage to control the starting protection function of the driving chip, and does not influence the working condition of a power supply.

The technical problem of the invention is mainly solved by the following technical scheme:

the no-load protection circuit comprises a driving chip U1 with a protection function and a voltage stabilizing module, and the no-load protection circuit further comprises a pull-up resistor, a pull-down resistor, a transformer and an NPN triode QS43; the output end of the driving chip U1 is connected with a driving output module, and the driving output module comprises a primary side L41A of a transformer; the secondary side L41C of the transformer is connected with a voltage stabilizing module, the output end of the voltage stabilizing module is connected with the base electrode of a triode QS43 through a mirror image input source, the collector electrode of the triode QS43 is connected with the protection trigger end of a driving chip U1, the emitter electrode of the triode QS43 is connected with the first end of a pull-down resistor, and the second end of the pull-down resistor is connected with the secondary side L41C of the transformer; a first end of the pull-up resistor is connected to the base of the transistor QS43, and a second end of the pull-up resistor is connected to a first end of the pull-down resistor.

When a load exists, the secondary side of the transformer outputs a stable 3.3V to the base electrode of the triode QS43 through the voltage stabilizing module, the voltage of the emitter electrode of the triode QS43, namely the connection part of the pull-up resistor and the pull-down resistor, is more than 1V, at the moment, the triode QS43 is cut off, and the protection trigger end of the driving chip U1 flows a constant current; when the circuit is in no-load state, the output voltage of the driving output module rises, the voltage and the negative current coupled to the secondary side L41C winding of the transformer rise, the voltage at the joint of the pull-up resistor and the pull-down resistor drops to 0V, the triode QS43 is conducted, the current on the protection trigger end of the driving chip U1 is reduced, the voltage drops, and the frequency is controlled to rise, so that the circuit enters a protection state. The circuit is used as a peripheral circuit of the driving chip, has a simple circuit structure, detects the change of the output voltage to control the starting protection function of the driving chip, and does not influence the working condition of the power supply.

Preferably, the mirror image input source comprises an NPN transistor QS41A and an NPN transistor QS41B; the collector of the triode QS41A is connected with the output end of the voltage stabilizing module, and the collector of the triode QS41B is connected with the collector of the triode QS43; the base of the transistor QS41A is connected with the base of the transistor QS41B, the emitter of the transistor QS41A is connected with the emitter of the transistor QS41B, and the emitter of the transistor QS41A is connected with the emitter of the transistor QS 43. The mirror source input is adopted to provide a stable small current, and in the scheme, the input voltage is 3.3V.

Preferably, the no-load protection circuit further includes a backflow prevention protection module, and the backflow prevention protection module is disposed between the transistor QS43 and the protection trigger end of the driver chip U1. The backflow prevention protection module prevents current in the circuit from flowing back into the driving chip U1, and protects normal operation of the driving chip U1.

Preferably, the backflow prevention protection module includes an NPN transistor QS42B, a collector of the transistor QS42B is connected to a base of the transistor QS42B, a base of the transistor QS42B is connected to the protection trigger end of the driving chip U1, and an emitter of the transistor QS42B is connected to a collector of the transistor QS 43. And an NPN triode is used as a backflow prevention element to protect the normal operation of the driving chip.

Preferably, the backflow prevention protection module comprises an NPN transistor QS42A, a collector of the transistor QS42A is connected with a base of the transistor QS42A, a base of the transistor QS42A is grounded, and an emitter of the transistor QS42A is connected with a collector of the transistor QS 43. Transistor QS42A protects the line.

Preferably, the pull-up resistor comprises a resistor RS45A and a resistor RS45B connected in series, the pull-down resistor comprises a resistor RS46A and a resistor RS46B connected in parallel, a diode DS42 is arranged between the pull-down resistor and the secondary side L41C of the transformer, the anode of the diode DS42 is connected to the second end of the pull-down resistor, and the cathode of the diode DS42 is connected to the secondary side L41C of the transformer. The resistance values of the pull-up resistor and the pull-down resistor are changed to change the magnitude of the no-load voltage, and the requirements of different no-load voltages are met.

The invention has the beneficial effects that:

1. the no-load protection circuit is used as a peripheral circuit of the driving chip, the circuit structure is simple, the output voltage change is detected to control the starting protection function of the driving chip, and the working condition of a power supply is not influenced.

2. And the mirror image source input is adopted, so that the input current is stable.

3. As a peripheral circuit of the driving chip, the driving circuit is suitable for various driving chips and has strong universality.

Drawings

Fig. 1 is a schematic connection diagram of a no-load protection circuit of the present invention.

Fig. 2 is a schematic circuit diagram of the regulator module according to the present invention.

Fig. 3 is a schematic connection diagram of an exemplary circuit for driving an output module according to the present invention.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings.

The embodiment is as follows:

as shown in fig. 1 to 3, the no-load protection circuit of this embodiment includes a driving chip U1 with a protection function, a voltage stabilizing module, a driving output module, a pull-up resistor, a pull-down resistor, a transformer, a backflow prevention protection module, an NPN transistor QS43, an NPN transistor QS41A, and an NPN transistor QS41B.

The backflow prevention protection module is arranged between the transistor QS43 and the protection trigger end of the driving chip U1. The backflow prevention protection module prevents current in the circuit from flowing back into the driving chip U1, and protects normal operation of the driving chip U1.

The driving chip U1 with the protection function can execute protection action according to the signal of the protection trigger end. The model of the driver chip U1 may be ICL5101, ICL5102, TEA19161T, or the like, and in this embodiment, the model of the driver chip U1 is UBA1313, and the protection trigger terminal thereof is 5 pins.

The output end of the driving chip U1 is connected with a driving output module, and the driving output module comprises a primary side L41A of a transformer.

The secondary side L41C of the transformer outputs a stable 3.3V voltage through the voltage stabilizing module. The secondary side L41C of the transformer is flowing a negative current.

The pull-up resistor comprises a resistor RS45A and a resistor RS45B which are connected in series; the pull-down resistor comprises a resistor RS46A and a resistor RS46B which are connected in parallel, a diode DS42 is arranged between the pull-down resistor and the secondary side L41C of the transformer, the anode of the diode DS42 is connected with the second end of the pull-down resistor, and the cathode of the diode DS42 is connected with the secondary side L41C of the transformer. Two ends of the pull-up resistor are connected with the capacitor CS45 in parallel, a first end of the pull-up resistor is connected with a first end of the capacitor CS46, and a second end of the pull-down resistor is connected with a second end of the capacitor CS 46.

The resistance values of the pull-up resistor and the pull-down resistor are changed to change the magnitude of the no-load voltage, so that the requirements of different no-load voltages are met.

The output end of the voltage stabilizing module is connected with the base electrode of a triode QS43 through a resistor RS40, the collector electrode of the triode QS43 is connected with the protection trigger end of a driving chip U1, the emitter electrode of the triode QS43 is connected with the first end of a pull-down resistor, and the second end of the pull-down resistor is connected with the secondary side L41C of a transformer; a first end of the pull-up resistor is connected with a base electrode of the triode QS43, and a second end of the pull-up resistor is connected with a first end of the pull-down resistor.

A 0 ohm resistor RS42 is provided between the connection of the pull-up resistor and the pull-down resistor and the emitter of transistor QS 43.

Transistor QS41A and transistor QS41B form mirror input sources. A stable low current is provided using a mirror source input, in this example, an input voltage of 3.3v and an rs40 resistance of 120K Ω.

The collector of the triode QS41A is connected with the output end of the voltage stabilizing module through a resistor RS40, and the collector of the triode QS41B is connected with the collector of the triode QS43; the base of the triode QS41A is connected with the base of the triode QS41B, the emitter of the triode QS41A is connected with the emitter of the triode QS41B, and the emitter of the triode QS41A is connected with the emitter of the triode QS 43.

An emitter of the transistor QS41B is connected with an anode of a diode DS41, a first end of a resistor RS41 and a first end of a capacitor CS41, respectively, and a cathode of the diode DS41, a second end of the resistor RS41 and a second end of the capacitor CS41 are connected with an emitter of the transistor QS41, respectively. A capacitor CS42 is provided between the emitter of the transistor QS41A and the emitter of the transistor QS 43. A second terminal of the pull-down resistor is connected to a first terminal of the capacitor CS41 through the capacitor CS43B and the capacitor CS43A connected in series.

The backflow prevention protection module comprises an NPN triode QS42B and an NPN triode QS42A.

The collector of the transistor QS42A is connected with the base of the transistor QS42A, the base of the transistor QS42A is grounded, and the emitter of the transistor QS42A is connected with the collector of the transistor QS 43. The collector of the transistor QS42B is connected with the base of the transistor QS42B, the base of the transistor QS42B is connected with the protection trigger end of the driving chip U1, and the emitter of the transistor QS42B is connected with the collector of the transistor QS 43.

The triode QS42A protects the circuit, and the triode QS42B is used as a backflow prevention element to protect the normal operation of the driving chip.

When a load exists, the secondary side of the transformer provides a stable small current for the base electrode of the triode QS43 through the voltage stabilizing module and the mirror image input source, in the embodiment, the input voltage is 3.3V, the resistance of the rs40 is 120K Ω, the voltage at the resistance RS42 is greater than 1V, the voltage at the pull-down resistance is a negative value, the current on the secondary side L41C winding of the transformer is a negative current, at this time, the triode QS43 is cut off, a constant current flows at the protection triggering end of the driving chip U1, and the output full load voltage is about 95V.

When the circuit is in no-load state, the output voltage of the driving output module rises, the voltage and the negative current coupled to the secondary side L41C winding of the transformer rise, the voltage at the joint of the pull-up resistor and the pull-down resistor drops to 0V, the triode QS43 is conducted, the current on the protection trigger end of the driving chip U1 is reduced, the voltage drops, and the frequency is controlled to rise, so that the circuit enters a protection state.

The circuit is used as a peripheral circuit of the driving chip, has a simple circuit structure, detects the change of the output voltage to control the starting protection function of the driving chip, and does not influence the working condition of the power supply. Can be adapted to different driving chips.

It should be understood that the examples are only for illustrating the present invention and are not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

Claims (6)

1. A no-load protection circuit comprises a driving chip U1 with a protection function and a voltage stabilizing module, and is characterized in that the no-load protection circuit further comprises a pull-up resistor, a pull-down resistor, a transformer and an NPN triode QS43; the output end of the driving chip U1 is connected with a driving output module, and the driving output module comprises a primary side L41A of a transformer; the secondary side L41C of the transformer is connected with a voltage stabilizing module, the output end of the voltage stabilizing module is connected with the base electrode of an audion QS43 through a mirror image input source, the collector electrode of the audion QS43 is connected with the protection trigger end of a driving chip U1, the emitter electrode of the audion QS43 is connected with the first end of a pull-down resistor, and the second end of the pull-down resistor is connected with the secondary side L41C of the transformer; the first end of the pull-up resistor is connected with the base electrode of the triode QS43, and the second end of the pull-up resistor is connected with the first end of the pull-down resistor;

when the circuit is in no-load state, the output voltage of the driving output module rises, the voltage and the negative current coupled to the secondary side L41C winding of the transformer rise, the voltage at the joint of the pull-up resistor and the pull-down resistor drops to 0V, the triode QS43 is conducted, the current on the protection trigger end of the driving chip U1 is reduced, the voltage drops, and the frequency is controlled to rise, so that the circuit enters a protection state.

2. The no-load protection circuit of claim 1, wherein said mirror input source comprises an NPN transistor QS41A and an NPN transistor QS41B; the collector of the triode QS41A is connected with the output end of the voltage stabilizing module, and the collector of the triode QS41B is connected with the collector of the triode QS43; the base of the transistor QS41A is connected with the base of the transistor QS41B, the emitter of the transistor QS41A is connected with the emitter of the transistor QS41B, and the emitter of the transistor QS41A is connected with the emitter of the transistor QS 43.

3. The no-load protection circuit according to claim 1 or 2, further comprising a backflow prevention protection module, wherein the backflow prevention protection module is disposed between the transistor QS43 and the protection trigger terminal of the driver chip U1.

4. The no-load protection circuit according to claim 3, wherein the backflow prevention protection module comprises an NPN transistor QS42B, a collector of the transistor QS42B is connected with a base of the transistor QS42B, a base of the transistor QS42B is connected with the protection trigger terminal of the driving chip U1, and an emitter of the transistor QS42B is connected with a collector of a transistor QS 43.

5. The no-load protection circuit according to claim 4, wherein the backflow prevention protection module comprises an NPN transistor QS42A, a collector of the transistor QS42A is connected with a base of the transistor QS42A, a base of the transistor QS42A is grounded, and an emitter of the transistor QS42A is connected with a collector of a transistor QS 43.

6. The no-load protection circuit of claim 1, wherein the pull-up resistor comprises a resistor RS45A and a resistor RS45B connected in series, the pull-down resistor comprises a resistor RS46A and a resistor RS46B connected in parallel, a diode DS42 is arranged between the pull-down resistor and the secondary side L41C of the transformer, an anode of the diode DS42 is connected to a second end of the pull-down resistor, and a cathode of the diode DS42 is connected to the secondary side L41C of the transformer.

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